/*
  ==============================================================================

   This file is part of the JUCE library.
   Copyright (c) 2017 - ROLI Ltd.

   JUCE is an open source library subject to commercial or open-source
   licensing.

   The code included in this file is provided under the terms of the ISC license
   http://www.isc.org/downloads/software-support-policy/isc-license. Permission
   To use, copy, modify, and/or distribute this software for any purpose with or
   without fee is hereby granted provided that the above copyright notice and
   this permission notice appear in all copies.

   JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
   EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
   DISCLAIMED.

  ==============================================================================
*/

namespace juce
{

inline static bool isValidXmlNameStartCharacter (juce_wchar character) noexcept
{
    return character == ':'
        || character == '_'
        || (character >= 'a'     && character <= 'z')
        || (character >= 'A'     && character <= 'Z')
        || (character >= 0xc0    && character <= 0xd6)
        || (character >= 0xd8    && character <= 0xf6)
        || (character >= 0xf8    && character <= 0x2ff)
        || (character >= 0x370   && character <= 0x37d)
        || (character >= 0x37f   && character <= 0x1fff)
        || (character >= 0x200c  && character <= 0x200d)
        || (character >= 0x2070  && character <= 0x218f)
        || (character >= 0x2c00  && character <= 0x2fef)
        || (character >= 0x3001  && character <= 0xd7ff)
        || (character >= 0xf900  && character <= 0xfdcf)
        || (character >= 0xfdf0  && character <= 0xfffd)
        || (character >= 0x10000 && character <= 0xeffff);
}

inline static bool isValidXmlNameBodyCharacter (juce_wchar character) noexcept
{
    return isValidXmlNameStartCharacter (character)
        || character == '-'
        || character == '.'
        || character == 0xb7
        || (character >= '0'    && character <= '9')
        || (character >= 0x300  && character <= 0x036f)
        || (character >= 0x203f && character <= 0x2040);
}

XmlElement::XmlAttributeNode::XmlAttributeNode (const XmlAttributeNode& other) noexcept
    : name (other.name),
      value (other.value)
{
}

XmlElement::XmlAttributeNode::XmlAttributeNode (const Identifier& n, const String& v) noexcept
    : name (n), value (v)
{
    jassert (isValidXmlName (name));
}

XmlElement::XmlAttributeNode::XmlAttributeNode (String::CharPointerType nameStart, String::CharPointerType nameEnd)
    : name (nameStart, nameEnd)
{
    jassert (isValidXmlName (name));
}

//==============================================================================
XmlElement::XmlElement (const String& tag)
    : tagName (StringPool::getGlobalPool().getPooledString (tag))
{
    jassert (isValidXmlName (tagName));
}

XmlElement::XmlElement (const char* tag)
    : tagName (StringPool::getGlobalPool().getPooledString (tag))
{
    jassert (isValidXmlName (tagName));
}

XmlElement::XmlElement (StringRef tag)
    : tagName (StringPool::getGlobalPool().getPooledString (tag))
{
    jassert (isValidXmlName (tagName));
}

XmlElement::XmlElement (const Identifier& tag)
    : tagName (tag.toString())
{
    jassert (isValidXmlName (tagName));
}

XmlElement::XmlElement (String::CharPointerType tagNameStart, String::CharPointerType tagNameEnd)
    : tagName (StringPool::getGlobalPool().getPooledString (tagNameStart, tagNameEnd))
{
    jassert (isValidXmlName (tagName));
}

XmlElement::XmlElement (int /*dummy*/) noexcept
{
}

XmlElement::XmlElement (const XmlElement& other)
    : tagName (other.tagName)
{
    copyChildrenAndAttributesFrom (other);
}

XmlElement& XmlElement::operator= (const XmlElement& other)
{
    if (this != &other)
    {
        removeAllAttributes();
        deleteAllChildElements();
        tagName = other.tagName;
        copyChildrenAndAttributesFrom (other);
    }

    return *this;
}

XmlElement::XmlElement (XmlElement&& other) noexcept
    : nextListItem      (std::move (other.nextListItem)),
      firstChildElement (std::move (other.firstChildElement)),
      attributes        (std::move (other.attributes)),
      tagName           (std::move (other.tagName))
{
}

XmlElement& XmlElement::operator= (XmlElement&& other) noexcept
{
    jassert (this != &other); // hopefully the compiler should make this situation impossible!

    removeAllAttributes();
    deleteAllChildElements();

    nextListItem      = std::move (other.nextListItem);
    firstChildElement = std::move (other.firstChildElement);
    attributes        = std::move (other.attributes);
    tagName           = std::move (other.tagName);

    return *this;
}

void XmlElement::copyChildrenAndAttributesFrom (const XmlElement& other)
{
    jassert (firstChildElement.get() == nullptr);
    firstChildElement.addCopyOfList (other.firstChildElement);

    jassert (attributes.get() == nullptr);
    attributes.addCopyOfList (other.attributes);
}

XmlElement::~XmlElement() noexcept
{
    firstChildElement.deleteAll();
    attributes.deleteAll();
}

//==============================================================================
namespace XmlOutputFunctions
{
   #if 0 // (These functions are just used to generate the lookup table used below)
    bool isLegalXmlCharSlow (const juce_wchar character) noexcept
    {
        if ((character >= 'a' && character <= 'z')
             || (character >= 'A' && character <= 'Z')
                || (character >= '0' && character <= '9'))
            return true;

        const char* t = " .,;:-()_+=?!'#@[]/\\*%~{}$|";

        do
        {
            if (((juce_wchar) (uint8) *t) == character)
                return true;
        }
        while (*++t != 0);

        return false;
    }

    void generateLegalCharLookupTable()
    {
        uint8 n[32] = { 0 };
        for (int i = 0; i < 256; ++i)
            if (isLegalXmlCharSlow (i))
                n[i >> 3] |= (1 << (i & 7));

        String s;
        for (int i = 0; i < 32; ++i)
            s << (int) n[i] << ", ";

        DBG (s);
    }
   #endif

    static bool isLegalXmlChar (const uint32 c) noexcept
    {
        static const unsigned char legalChars[] = { 0, 0, 0, 0, 187, 255, 255, 175, 255,
                                                    255, 255, 191, 254, 255, 255, 127 };
        return c < sizeof (legalChars) * 8
                 && (legalChars [c >> 3] & (1 << (c & 7))) != 0;
    }

    static void escapeIllegalXmlChars (OutputStream& outputStream, const String& text, const bool changeNewLines)
    {
        auto t = text.getCharPointer();

        for (;;)
        {
            auto character = (uint32) t.getAndAdvance();

            if (character == 0)
                break;

            if (isLegalXmlChar (character))
            {
                outputStream << (char) character;
            }
            else
            {
                switch (character)
                {
                    case '&':   outputStream << "&amp;"; break;
                    case '"':   outputStream << "&quot;"; break;
                    case '>':   outputStream << "&gt;"; break;
                    case '<':   outputStream << "&lt;"; break;

                    case '\n':
                    case '\r':
                        if (! changeNewLines)
                        {
                            outputStream << (char) character;
                            break;
                        }
                        // Note: Deliberate fall-through here!
                    default:
                        outputStream << "&#" << ((int) character) << ';';
                        break;
                }
            }
        }
    }

    static void writeSpaces (OutputStream& out, const size_t numSpaces)
    {
        out.writeRepeatedByte (' ', numSpaces);
    }
}

void XmlElement::writeElementAsText (OutputStream& outputStream,
                                     const int indentationLevel,
                                     const int lineWrapLength) const
{
    using namespace XmlOutputFunctions;

    if (indentationLevel >= 0)
        writeSpaces (outputStream, (size_t) indentationLevel);

    if (! isTextElement())
    {
        outputStream.writeByte ('<');
        outputStream << tagName;

        {
            auto attIndent = (size_t) (indentationLevel + tagName.length() + 1);
            int lineLen = 0;

            for (auto* att = attributes.get(); att != nullptr; att = att->nextListItem)
            {
                if (lineLen > lineWrapLength && indentationLevel >= 0)
                {
                    outputStream << newLine;
                    writeSpaces (outputStream, attIndent);
                    lineLen = 0;
                }

                auto startPos = outputStream.getPosition();
                outputStream.writeByte (' ');
                outputStream << att->name;
                outputStream.write ("=\"", 2);
                escapeIllegalXmlChars (outputStream, att->value, true);
                outputStream.writeByte ('"');
                lineLen += (int) (outputStream.getPosition() - startPos);
            }
        }

        if (auto* child = firstChildElement.get())
        {
            outputStream.writeByte ('>');
            bool lastWasTextNode = false;

            for (; child != nullptr; child = child->nextListItem)
            {
                if (child->isTextElement())
                {
                    escapeIllegalXmlChars (outputStream, child->getText(), false);
                    lastWasTextNode = true;
                }
                else
                {
                    if (indentationLevel >= 0 && ! lastWasTextNode)
                        outputStream << newLine;

                    child->writeElementAsText (outputStream,
                                               lastWasTextNode ? 0 : (indentationLevel + (indentationLevel >= 0 ? 2 : 0)), lineWrapLength);
                    lastWasTextNode = false;
                }
            }

            if (indentationLevel >= 0 && ! lastWasTextNode)
            {
                outputStream << newLine;
                writeSpaces (outputStream, (size_t) indentationLevel);
            }

            outputStream.write ("</", 2);
            outputStream << tagName;
            outputStream.writeByte ('>');
        }
        else
        {
            outputStream.write ("/>", 2);
        }
    }
    else
    {
        escapeIllegalXmlChars (outputStream, getText(), false);
    }
}

String XmlElement::createDocument (StringRef dtdToUse,
                                   const bool allOnOneLine,
                                   const bool includeXmlHeader,
                                   StringRef encodingType,
                                   const int lineWrapLength) const
{
    MemoryOutputStream mem (2048);
    writeToStream (mem, dtdToUse, allOnOneLine, includeXmlHeader, encodingType, lineWrapLength);

    return mem.toUTF8();
}

void XmlElement::writeToStream (OutputStream& output, StringRef dtdToUse,
                                bool allOnOneLine, bool includeXmlHeader,
                                StringRef encodingType, int lineWrapLength) const
{
    using namespace XmlOutputFunctions;

    if (includeXmlHeader)
    {
        output << "<?xml version=\"1.0\" encoding=\"" << encodingType << "\"?>";

        if (allOnOneLine)
            output.writeByte (' ');
        else
            output << newLine << newLine;
    }

    if (dtdToUse.isNotEmpty())
    {
        output << dtdToUse;

        if (allOnOneLine)
            output.writeByte (' ');
        else
            output << newLine;
    }

    writeElementAsText (output, allOnOneLine ? -1 : 0, lineWrapLength);

    if (! allOnOneLine)
        output << newLine;
}

bool XmlElement::writeToFile (const File& file, StringRef dtdToUse,
                              StringRef encodingType, int lineWrapLength) const
{
    TemporaryFile tempFile (file);

    {
        FileOutputStream out (tempFile.getFile());

        if (! out.openedOk())
            return false;

        writeToStream (out, dtdToUse, false, true, encodingType, lineWrapLength);
        out.flush(); // (called explicitly to force an fsync on posix)

        if (out.getStatus().failed())
            return false;
    }

    return tempFile.overwriteTargetFileWithTemporary();
}

//==============================================================================
bool XmlElement::hasTagName (StringRef possibleTagName) const noexcept
{
    const bool matches = tagName.equalsIgnoreCase (possibleTagName);

    // XML tags should be case-sensitive, so although this method allows a
    // case-insensitive match to pass, you should try to avoid this.
    jassert ((! matches) || tagName == possibleTagName);

    return matches;
}

String XmlElement::getNamespace() const
{
    return tagName.upToFirstOccurrenceOf (":", false, false);
}

String XmlElement::getTagNameWithoutNamespace() const
{
    return tagName.fromLastOccurrenceOf (":", false, false);
}

bool XmlElement::hasTagNameIgnoringNamespace (StringRef possibleTagName) const
{
    return hasTagName (possibleTagName) || getTagNameWithoutNamespace() == possibleTagName;
}

XmlElement* XmlElement::getNextElementWithTagName (StringRef requiredTagName) const
{
    auto* e = nextListItem.get();

    while (e != nullptr && ! e->hasTagName (requiredTagName))
        e = e->nextListItem;

    return e;
}

void XmlElement::setTagName (StringRef newTagName)
{
    jassert (isValidXmlName (newTagName));
    tagName = StringPool::getGlobalPool().getPooledString (newTagName);
}

//==============================================================================
int XmlElement::getNumAttributes() const noexcept
{
    return attributes.size();
}

static const String& getEmptyStringRef() noexcept
{
    static String empty;
    return empty;
}

const String& XmlElement::getAttributeName (const int index) const noexcept
{
    if (auto* att = attributes[index].get())
        return att->name.toString();

    return getEmptyStringRef();
}

const String& XmlElement::getAttributeValue (const int index) const noexcept
{
    if (auto* att = attributes[index].get())
        return att->value;

    return getEmptyStringRef();
}

XmlElement::XmlAttributeNode* XmlElement::getAttribute (StringRef attributeName) const noexcept
{
    for (auto* att = attributes.get(); att != nullptr; att = att->nextListItem)
        if (att->name == attributeName)
            return att;

    return nullptr;
}

bool XmlElement::hasAttribute (StringRef attributeName) const noexcept
{
    return getAttribute (attributeName) != nullptr;
}

//==============================================================================
const String& XmlElement::getStringAttribute (StringRef attributeName) const noexcept
{
    if (auto* att = getAttribute (attributeName))
        return att->value;

    return getEmptyStringRef();
}

String XmlElement::getStringAttribute (StringRef attributeName, const String& defaultReturnValue) const
{
    if (auto* att = getAttribute (attributeName))
        return att->value;

    return defaultReturnValue;
}

int XmlElement::getIntAttribute (StringRef attributeName, const int defaultReturnValue) const
{
    if (auto* att = getAttribute (attributeName))
        return att->value.getIntValue();

    return defaultReturnValue;
}

double XmlElement::getDoubleAttribute (StringRef attributeName, const double defaultReturnValue) const
{
    if (auto* att = getAttribute (attributeName))
        return att->value.getDoubleValue();

    return defaultReturnValue;
}

bool XmlElement::getBoolAttribute (StringRef attributeName, const bool defaultReturnValue) const
{
    if (auto* att = getAttribute (attributeName))
    {
        auto firstChar = *(att->value.getCharPointer().findEndOfWhitespace());

        return firstChar == '1'
            || firstChar == 't'
            || firstChar == 'y'
            || firstChar == 'T'
            || firstChar == 'Y';
    }

    return defaultReturnValue;
}

bool XmlElement::compareAttribute (StringRef attributeName,
                                   StringRef stringToCompareAgainst,
                                   const bool ignoreCase) const noexcept
{
    if (auto* att = getAttribute (attributeName))
        return ignoreCase ? att->value.equalsIgnoreCase (stringToCompareAgainst)
                          : att->value == stringToCompareAgainst;

    return false;
}

//==============================================================================
void XmlElement::setAttribute (const Identifier& attributeName, const String& value)
{
    if (attributes == nullptr)
    {
        attributes = new XmlAttributeNode (attributeName, value);
    }
    else
    {
        for (auto* att = attributes.get(); ; att = att->nextListItem)
        {
            if (att->name == attributeName)
            {
                att->value = value;
                break;
            }

            if (att->nextListItem == nullptr)
            {
                att->nextListItem = new XmlAttributeNode (attributeName, value);
                break;
            }
        }
    }
}

void XmlElement::setAttribute (const Identifier& attributeName, const int number)
{
    setAttribute (attributeName, String (number));
}

void XmlElement::setAttribute (const Identifier& attributeName, const double number)
{
    setAttribute (attributeName, serialiseDouble (number));
}

void XmlElement::removeAttribute (const Identifier& attributeName) noexcept
{
    for (auto* att = &attributes; att->get() != nullptr; att = &(att->get()->nextListItem))
    {
        if (att->get()->name == attributeName)
        {
            delete att->removeNext();
            break;
        }
    }
}

void XmlElement::removeAllAttributes() noexcept
{
    attributes.deleteAll();
}

//==============================================================================
int XmlElement::getNumChildElements() const noexcept
{
    return firstChildElement.size();
}

XmlElement* XmlElement::getChildElement (const int index) const noexcept
{
    return firstChildElement [index].get();
}

XmlElement* XmlElement::getChildByName (StringRef childName) const noexcept
{
    jassert (! childName.isEmpty());

    for (auto* child = firstChildElement.get(); child != nullptr; child = child->nextListItem)
        if (child->hasTagName (childName))
            return child;

    return nullptr;
}

XmlElement* XmlElement::getChildByAttribute (StringRef attributeName, StringRef attributeValue) const noexcept
{
    jassert (! attributeName.isEmpty());

    for (auto* child = firstChildElement.get(); child != nullptr; child = child->nextListItem)
        if (child->compareAttribute (attributeName, attributeValue))
            return child;

    return nullptr;
}

void XmlElement::addChildElement (XmlElement* const newNode) noexcept
{
    if (newNode != nullptr)
    {
        // The element being added must not be a child of another node!
        jassert (newNode->nextListItem == nullptr);

        firstChildElement.append (newNode);
    }
}

void XmlElement::insertChildElement (XmlElement* const newNode, int indexToInsertAt) noexcept
{
    if (newNode != nullptr)
    {
        // The element being added must not be a child of another node!
        jassert (newNode->nextListItem == nullptr);

        firstChildElement.insertAtIndex (indexToInsertAt, newNode);
    }
}

void XmlElement::prependChildElement (XmlElement* newNode) noexcept
{
    if (newNode != nullptr)
    {
        // The element being added must not be a child of another node!
        jassert (newNode->nextListItem == nullptr);

        firstChildElement.insertNext (newNode);
    }
}

XmlElement* XmlElement::createNewChildElement (StringRef childTagName)
{
    auto newElement = new XmlElement (childTagName);
    addChildElement (newElement);
    return newElement;
}

bool XmlElement::replaceChildElement (XmlElement* const currentChildElement,
                                      XmlElement* const newNode) noexcept
{
    if (newNode != nullptr)
    {
        if (auto* p = firstChildElement.findPointerTo (currentChildElement))
        {
            if (currentChildElement != newNode)
                delete p->replaceNext (newNode);

            return true;
        }
    }

    return false;
}

void XmlElement::removeChildElement (XmlElement* const childToRemove,
                                     const bool shouldDeleteTheChild) noexcept
{
    if (childToRemove != nullptr)
    {
        jassert (containsChildElement (childToRemove));

        firstChildElement.remove (childToRemove);

        if (shouldDeleteTheChild)
            delete childToRemove;
    }
}

bool XmlElement::isEquivalentTo (const XmlElement* const other,
                                 const bool ignoreOrderOfAttributes) const noexcept
{
    if (this != other)
    {
        if (other == nullptr || tagName != other->tagName)
            return false;

        if (ignoreOrderOfAttributes)
        {
            int totalAtts = 0;

            for (auto* att = attributes.get(); att != nullptr; att = att->nextListItem)
            {
                if (! other->compareAttribute (att->name, att->value))
                    return false;

                ++totalAtts;
            }

            if (totalAtts != other->getNumAttributes())
                return false;
        }
        else
        {
            auto* thisAtt = attributes.get();
            auto* otherAtt = other->attributes.get();

            for (;;)
            {
                if (thisAtt == nullptr || otherAtt == nullptr)
                {
                    if (thisAtt == otherAtt) // both nullptr, so it's a match
                        break;

                    return false;
                }

                if (thisAtt->name != otherAtt->name
                     || thisAtt->value != otherAtt->value)
                {
                    return false;
                }

                thisAtt = thisAtt->nextListItem;
                otherAtt = otherAtt->nextListItem;
            }
        }

        auto* thisChild = firstChildElement.get();
        auto* otherChild = other->firstChildElement.get();

        for (;;)
        {
            if (thisChild == nullptr || otherChild == nullptr)
            {
                if (thisChild == otherChild) // both 0, so it's a match
                    break;

                return false;
            }

            if (! thisChild->isEquivalentTo (otherChild, ignoreOrderOfAttributes))
                return false;

            thisChild = thisChild->nextListItem;
            otherChild = otherChild->nextListItem;
        }
    }

    return true;
}

void XmlElement::deleteAllChildElements() noexcept
{
    firstChildElement.deleteAll();
}

void XmlElement::deleteAllChildElementsWithTagName (StringRef name) noexcept
{
    for (auto* child = firstChildElement.get(); child != nullptr;)
    {
        auto* nextChild = child->nextListItem.get();

        if (child->hasTagName (name))
            removeChildElement (child, true);

        child = nextChild;
    }
}

bool XmlElement::containsChildElement (const XmlElement* const possibleChild) const noexcept
{
    return firstChildElement.contains (possibleChild);
}

XmlElement* XmlElement::findParentElementOf (const XmlElement* const elementToLookFor) noexcept
{
    if (this == elementToLookFor || elementToLookFor == nullptr)
        return nullptr;

    for (auto* child = firstChildElement.get(); child != nullptr; child = child->nextListItem)
    {
        if (elementToLookFor == child)
            return this;

        if (auto* found = child->findParentElementOf (elementToLookFor))
            return found;
    }

    return nullptr;
}

void XmlElement::getChildElementsAsArray (XmlElement** elems) const noexcept
{
    firstChildElement.copyToArray (elems);
}

void XmlElement::reorderChildElements (XmlElement** elems, int num) noexcept
{
    auto* e = elems[0];
    firstChildElement = e;

    for (int i = 1; i < num; ++i)
    {
        e->nextListItem = elems[i];
        e = e->nextListItem;
    }

    e->nextListItem = nullptr;
}

//==============================================================================
bool XmlElement::isTextElement() const noexcept
{
    return tagName.isEmpty();
}

static const String juce_xmltextContentAttributeName ("text");

const String& XmlElement::getText() const noexcept
{
    jassert (isTextElement());  // you're trying to get the text from an element that
                                // isn't actually a text element.. If this contains text sub-nodes, you
                                // probably want to use getAllSubText instead.

    return getStringAttribute (juce_xmltextContentAttributeName);
}

void XmlElement::setText (const String& newText)
{
    if (isTextElement())
        setAttribute (juce_xmltextContentAttributeName, newText);
    else
        jassertfalse; // you can only change the text in a text element, not a normal one.
}

String XmlElement::getAllSubText() const
{
    if (isTextElement())
        return getText();

    if (getNumChildElements() == 1)
        return firstChildElement.get()->getAllSubText();

    MemoryOutputStream mem (1024);

    for (auto* child = firstChildElement.get(); child != nullptr; child = child->nextListItem)
        mem << child->getAllSubText();

    return mem.toUTF8();
}

String XmlElement::getChildElementAllSubText (StringRef childTagName, const String& defaultReturnValue) const
{
    if (auto* child = getChildByName (childTagName))
        return child->getAllSubText();

    return defaultReturnValue;
}

XmlElement* XmlElement::createTextElement (const String& text)
{
    auto e = new XmlElement ((int) 0);
    e->setAttribute (juce_xmltextContentAttributeName, text);
    return e;
}

bool XmlElement::isValidXmlName (StringRef text) noexcept
{
    if (text.isEmpty() || ! isValidXmlNameStartCharacter (text.text.getAndAdvance()))
        return false;

    for (;;)
    {
        if (text.isEmpty())
            return true;

        if (! isValidXmlNameBodyCharacter (text.text.getAndAdvance()))
            return false;
    }
}

void XmlElement::addTextElement (const String& text)
{
    addChildElement (createTextElement (text));
}

void XmlElement::deleteAllTextElements() noexcept
{
    for (auto* child = firstChildElement.get(); child != nullptr;)
    {
        auto* next = child->nextListItem.get();

        if (child->isTextElement())
            removeChildElement (child, true);

        child = next;
    }
}

//==============================================================================
#if JUCE_UNIT_TESTS

class XmlElementTests  : public UnitTest
{
public:
    XmlElementTests() : UnitTest ("XmlElement", "XML") {}

    void runTest() override
    {
        {
            beginTest ("Float formatting");

            auto element = std::make_unique<XmlElement> ("test");
            Identifier number ("number");

            std::map<double, String> tests;
            tests[1] = "1.0";
            tests[1.1] = "1.1";
            tests[1.01] = "1.01";
            tests[0.76378] = "0.76378";
            tests[-10] = "-10.0";
            tests[10.01] = "10.01";
            tests[0.0123] = "0.0123";
            tests[-3.7e-27] = "-3.7e-27";
            tests[1e+40] = "1.0e40";
            tests[-12345678901234567.0] = "-1.234567890123457e16";
            tests[192000] = "192000.0";
            tests[1234567] = "1.234567e6";
            tests[0.00006] = "0.00006";
            tests[0.000006] = "6.0e-6";

            for (auto& test : tests)
            {
                element->setAttribute (number, test.first);
                expectEquals (element->getStringAttribute (number), test.second);
            }
        }
    }
};

static XmlElementTests xmlElementTests;

#endif

} // namespace juce
